Divergent tooth development mechanisms of Mexican tetra fish (Astyanax mexicanus) of Pachón cave origin.

The Mexican tetra (Astyanax mexicanus) is one of the fresh water teleost fish models in evolutionary developmental biology. The existence of two morphs: eyed, pigmented surface fish and blind depigmented cavefish from multiple cave populations, provides a unique system to study adaptive radiation. Compared to the adult surface fish, cavefish have large oral jaws with an increased number of structurally-complex teeth.

Pvr regulates cyst stem cell division in the Drosophila testis niche, and has functions distinct from Egfr.

Regulation of the rate of stem cell division is one of the key determinants of the abundance of differentiating progeny in stem cell-supported tissues, and mis-regulation can lead to tumorigenesis. The well-studied Drosophila testis niche is an excellent model system to study the regulation of stem cell division in vivo. This niche supports two stem cell populations-the germline stem cells (GSCs) and cyst stem cells (CySCs), which cluster around a group of cells called the hub.

Inhibition of TGFβ1/Smad pathway by NF-κB induces inflammation leading to poor wound healing in high glucose.

This study mainly analyzed the relationship between nuclear factor kappa-light-chain-enhancer of activated B cells (NF-κB) and transforming growth factor-β (TGFβ1)/Smad under high glucose environment and its influence on wound healing. Fibroblast NIH-3T3 was used to analyze the effect of high concentration glucose (20 nmol/mL) on cell viability, migration ability, inflammation level and NF-κB pathway. Pyrrolidinedithiocarbamate (PDTC) was used to inhibit NF-κB for rescue experiments.

Usability of deep learning pipelines for 3D nuclei identification with Stardist and Cellpose.

Segmentation of 3D images to identify cells and their molecular outputs can be difficult and tedious. Machine learning algorithms provide a promising alternative to manual analysis as emerging 3D image processing technology can save considerable time. For those unfamiliar with machine learning or 3D image analysis, the rapid advancement of the field can make navigating the newest software options confusing.

An additive repression mechanism sets the anterior limits of anterior pair-rule stripes 1.

Segments are repeated anatomical units forming the body of insects. In Drosophila, the specification of the body takes place during the blastoderm through the segmentation cascade. Pair-rule genes such as hairy (h), even-skipped (eve), runt (run), and fushi-tarazu (ftz) are of the intermediate level of the cascade and each pair-rule gene is expressed in seven transversal stripes along the antero-posterior axis of the embryo.

A physical model for dynamic assembly of human salivary stem/progenitor microstructures.

The in vitro reconstructions of human salivary glands in service of their eventual medical use represent a challenge for tissue engineering. Here, we present a theoretical approach to the dynamical formation of acinar structures from human salivary cells, focusing on observed stick-slip radial expansion as well as possible growth instabilities. Our findings demonstrate the critical importance of basement membrane remodeling in controlling the growth process.

The functional verification and analysis of Fugu promoter of cardiac gene tnni1a in zebrafish.

Troponin I type 1b (Tnni1b) is thought to be a novel isoform that is expressed only in the zebrafish heart. Knocking down of tnni1b can lead to cardiac defects in zebrafish. Although both the zebrafish tnni1b and human troponin I1 (TNNI1) genes are thought to be closely associated with fatal cardiac development, the regulatory molecular mechanisms of these genes are poorly understood.

Modulation of DRG neurons response to semaphorin 3A via substrate stiffness.

Semaphorin 3A (Sema3a) is a chemotropic protein that acts as a neuronal guidance cue and plays a major role in dorsal root ganglion (DRG) sensory neurons projection during embryo development. The present study evaluated the impact of stiffness in the repulsive response of DRG neurons to Sema3a when cultured over substrates of variable stiffness. Stiffness modified DRG neurons morphology and regulated their response to Sema3a, reducing the collapse of growth cones when they were cultured on softer substrates.

Immune-mediated alopecias and their mechanobiological aspects.

Alopecia is a non-specific term for hair loss clinically diagnosed by the hair loss pattern and histological analysis of patient scalp biopsies. The immune-mediated alopecia subtypes, including alopecia areata, lichen planopilaris, frontal fibrosing alopecia, and central centrifugal cicatricial alopecia, are common, significant forms of alopecia subtypes. For example, alopecia areata is the most common autoimmune disease with a lifetime incidence of approximately 2% of the world's population.

Mechanical strain breaks planar symmetry in embryonic epithelia via polarized microtubules.

Mechanical strain can act as a global cue to orient the core planar cell polarity pathway (Fz-PCP) in developing epithelia, but how strain directs a Fz-PCP vector is not known. Here we use live cell imaging of apical microtubules (MTs) and components of the Fz-PCP pathway to analyze epithelial cells in Xenopus embryos as they respond to anisotropic mechanical strain and form a Fz-PCP axis. We find that a Fz-PCP axis can be detected approximately 40 min after the application of strain.

Emerging roles of endoplasmic reticulum proteostasis in brain development.

The development of the central nervous system requires a series of morphogenetic events that shape brain and spinal cord structures. Several brain regions and neural circuits are formed by differential gene expression patterns and cell migration events involving neurons. During neurogenesis and neuritogenesis, increased demand for protein synthesis occurs to express key neuronal proteins to generate axons, dendrites, and synapsis.

Tissue mechanics in morphogenesis: Active control of tissue material properties to shape living organisms.

Cellular forces translate into epithelial deformations to shape animal organisms. To set the proper deformations, these forces are modulated in space and time during development. However, several studies have recently highlighted that, in addition to forces, tissue mechanical properties are also actively controlled in space and time to determine the final tissue shape.

Forces in stem cells and cancer stem cells.

Endogenous and exogenous forces are critical in physiology and pathology of the human body. Increasing evidence suggests that these forces, mechanics, and force-associated signaling are essential in regulating functions of living cells. Here we review advances in understanding the impact of forces and mechanics on functions and fate of embryonic stem cells, adult stem cells, and cancer stem cells and the pathways of mechanotransduction in cells.

FGF/MAPK/Ets signaling in Xenopus ectoderm contributes to neural induction and patterning in an autonomous and paracrine manner, respectively.

FGF and anti-BMP signals from the Spemann organizer of mesodermal origin are essential for Xenopus neural development from gastrula ectoderm. However, the detailed cellular and molecular mechanisms of signaling, especially those underlying the neural induction process, are still controversial. We show here that the expression of early neural marker genes such as sox2 and otx2 is suppressed both in vivo and in vitro, when ectoderm cells are loaded with a dominant-negative construct of Ets transcription factors or a translation-blocking antisense FGF2 MO or FGF8 MO, respectively.

Knockdown of long non-coding RNA MIR155HG suppresses melanoma cell proliferation, and deregulated MIR155HG in melanoma is associated with M1/M2 balance and macrophage infiltration.

This study aimed to address the roles of long non-coding RNA (lncRNA) MIR155HG in melanoma cell proliferation and apoptosis, as well as the roles of deregulated MIR155HG in melanoma cells in regulation M1/M2 macrophage balance and macrophage infiltration. In this study, melanoma A375 and SK-MEL-28 cells that transfected with MIR155HG knockdown or overexpression plasmid were subjected to examinations of cell viability, colony formation ability, cell cycle distribution and apoptosis. Then, monocytic THP-1 cells were differentiated and polarized into M1 and M2 phenotypes.

The regulation of Msx1 by BMP4/pSmad1/5 signaling is mediated by importin7 in dental mesenchymal cells.

Msx1 is essential for the maintenance of the odontogenic fate of dental mesenchymal cells, and is regulated by BMP/Smad1/5 signaling in a Smad4-independent manner. However, the exact co-factors that assist pSmad1/5 entering the nucleus to regulate Msx1 in dental mesenchymal cells are still unknown. Importin7 (IPO7) is one of the important members of importin β-superfamily, which is mainly responsible for nucleocytoplasmic shuttling of RNAs and proteins, including transcription factors.

Multi-scale Chimerism: An experimental window on the algorithms of anatomical control.

Despite the immense progress in genetics and cell biology, major knowledge gaps remain with respect to prediction and control of the global morphologies that will result from the cooperation of cells with known genomes. The understanding of cooperativity, competition, and synergy across diverse biological scales has been obscured by a focus on standard model systems that exhibit invariant species-specific anatomies. Morphogenesis of chimeric biological material is an especially instructive window on the control of biological growth and form because it emphasizes the need for prediction without reliance on familiar, standard outcomes.

A novel mechanism of the lncRNA PTTG3P/miR-142-5p/JAG1 axis modulating tongue cancer cell phenotypes through the Notch1 signaling.

Tongue cancer is the most prevalent type of oral cancer. Our previous study revealed that JAG1 exerted an oncogenic effect on tongue carcinoma through the JAG1/Notch pathway. In this study, a lncRNA PTTG3P which was upregulated in tongue cancer, was found to be positively correlated with JAG1.